SU1406679A1 - Device for protective disconnection of electric installation - Google Patents

Abstract

BACKGROUND OF THE INVENTION The invention relates to electrical appliances for protecting a person against the generation of electric current. The purpose of the invention is to increase reliability. The invention makes it possible to double control the working isolation between the instrument case and the current flow part and automatically disconnect the instrument from the network of changes} with the first power frequency current. The decrease in the resistance of the insulation of the thermal electric heater (TEN) 12 below the permissible value through the device off and the heater begins to leak enough to open the transistors 5 and 6 and low-power relay 4. As the fuse 10 is installed in series with normally open contact II, then when it is closed, the short circuit of the power supply unit and the unlocking of the executive mechanism 9 is short. The response time (burn-out) of the fuse 10 is less than the switching time tion relay 4, so that through pin 1 pass 1 will be short-circuit current of the power unit, which will blow the fuse 10 disabling the actuator 9 and disable heater 12, 13 from the mains. 1 il. i (L

Description

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This low-power relay 4 closes the contact 11 and shunts the executive relay 9. Since the fuse 10 is connected in series to the contact 1 1 and they are connected to the terminals of the power supply unit, the power supply short-circuits and the fuse 10 blows through it. power unit. The operating time of the fuse 10 (, 0008 s) is significantly less than the time the contact 11 is in the closed state (, 01 s), so the circuit of contact 11 is de-energized before the opening of contact 11 occurs. This ensures that the G1 contact does not stick and

The invention relates to electrical engineering, in particular, to devices protected against electric shock, and can be used in electric heating devices with thermal electric heaters (PETN), as well as other electric appliances.

The purpose of the invention is to increase the reliability of the device protection.

The drawing shows the electrical circuit of the device for the protection of electrical installations.

The device contains a power supply unit consisting of a downstream transformer 1, a rectifying unit 2 and a filter, its capacitor 3. The actuator is made on a low-power relay 4 and a transistor two-kaad amplifier on the transistor 15 and operating the device without replacing the subistor 5 and 6. Transistor 5, collector fuse,

whose torus is connected to the positive pole of the power supply unit through the winding of the low-power executive relay 4, and the base is connected via a resistor 7 to the terminal block of the electrical installation, it is a sensor for leakage current and monitoring the insulation resistance of the current-carrying parts in relation to the electrical installation housing. Positive pole of the power supply through

Claims (1)

the resistor 8 is connected to the power supply circuit 25 of the device protection and electrical installation. The actuator is based on the relay 9 and connected to the power supply unit through the safety formula-Formula 10. In parallel to the winding of the actuator 9, the closing device is connected. The protection, the actuator, the leakage current sensor with resistors, the input of which is connected to the terminal for connection to the electrical installation, and the output to the current amplifier with the executive low-power 20 Thus, the device allows to control leakage currents and at the same time to monitor the resistance of the working insulation of the heating element, continuously monitor the resistance of the working insulation of the heating element by constant voltage of the power supply unit applied to the current-carrying part and the body of the heating element, which increases reliability My electrical installation in the diagram is the electric heater 12 and 13, which are connected to the electrical network through the closure contacts 14 and 15 of the actuator 9. Diodes 16 and 17 are used to isolate the power supply unit from the electrical supply circuit. The device works as follows. In the normal state of insulation of the heater elements 12 and 13, the leakage current through the working insulation between the current-carrying part and the case of the heater elements is small and transistors 5 and 6 are closed. When reducing the resistance of the working relay, characterized in that, in order to increase the reliability of operation, the leakage current sensor is made on a transistor, the collector of which is connected to the positive pole through the winding of a low-power relay 40 of the power supply unit connected through the first resistor to a terminal for connecting to the power supply of the electrical installation, and the base of the transistor through the second resistor is connected to the terminal for connecting to the housing The electrical installation, where the terminating end of isolating the permissible value after the 45 stroke of the low-power executive relay, the base of transistor 5 playing the role of connected in parallel with the winding of the leakage current sensor, starts the flowing mechanism connected to the sequence sufficient to open transistically with the newly introduced fuse 5 and the device operates. A power adapter to the power supply. This low-power relay 4 closes the contact 11 and shunts the executive relay 9. Since the fuse 10 is connected in series to the contact 1 1 and they are connected to the terminals of the power supply unit, the power supply short-circuits and the fuse 10 blows through it. power unit. The operating time of the fuse 10 (, 0008 s) is significantly less than the time the contact 11 is in the closed state (, 01 s), so the circuit of contact 11 is de-energized before the opening of contact 11 occurs. This ensures that the G1 contact does not stick and and operating the device without replacing the fuse, Thus, the device allows to control leakage currents and at the same time to monitor the resistance of the working insulation of the heating element, continuously monitor the resistance of the working insulation of the heating element by constant voltage of the power supply unit applied to the current-carrying part and the body of the heating element, which increases reliability device protection, Claims of the invention A device for protective disconnection of an electrical installation, comprising a power supply unit, an actuator, a leakage current sensor with resistors, the input connected to a terminal for connecting to the electrical installation case, and an output to an amplifier with a low-power executive relay characterized by so that, in order to increase the reliability of operation, the leakage current sensor is made on a transistor, whose collection through the winding of a low-power relay is connected to the positive pole power supply unit connected through the first resistor to the terminal for connecting to the power supply of the electrical installation, and the base of the transistor through the second resistor connected to the terminal for connecting to the housing